CN205222411U - Passenger conveyer - Google Patents

Abstract

The utility model provides a can reduce the passenger conveyer of computer lab. The utility model discloses an embodiment's passenger conveyer includes: the motor, it sets up is controlling between a pair of main drive sprocket, slow down and use the planetary gear case, on its motor shaft who is linked to the motor, the planetary gear case is used in the drive, and it makes the internal gear rotatory along with the output shaft that slows down with the planetary gear case, and the tube -shape drive wheel is in its periphery that is fixed in the internal gear to a pair of main drive sprocket about being fixed with in the periphery of left and right sides portion.

Description

Passenger conveyors

Technical field

Embodiment of the present utility model relates to a kind of passenger conveyors.

Background technology

In the prior art, in the passenger conveyors such as escalator, mobile pavement, be arranged in machine room for driving the actuating device of step and handrail, this machine room is arranged on one end of truss, by this actuating device, main drive chain gear and handrail driving chain gear are rotated, thus makes step and handrail synchronized operation.

As the prior art document of the machine room of escalator, disclose patent documentation 1: the open H8-259161A publication of Japanese Patent.

Utility model content

Recently, in order to improve safety when passenger conveyors occurs for earthquake, correct the law (building standard method is implemented and made) of the setting about passenger conveyors.The main points of this correction are: when arranging truss on building, expand the gap between truss and building compared with in the past, rock even if caused by earthquake etc., and this gap can absorb thisly rocks the activity caused.

But existing passenger conveyors exists following problem, that is, the gap between building and truss is very little, in order to observe this law, needs to reduce machine room.

Thus, in view of the above problems, object is to provide a kind of passenger conveyors that can reduce machine room embodiment of the present utility model.

Embodiment of the present utility model has feature as follows.

Preferably, a kind of passenger conveyors, is characterized in that, comprising: be supported in the truss on building by bearing angle; Machine room, it is arranged on one end of described truss; Multiple step, it configures along its length in described truss, and connects to ring-type; The main drive chain gear of pair of right and left, it is configured in described machine room, for driving described step; Motor, it is configured between the described main drive chain gear of pair of right and left; Deceleration epicyclic gear box, it is configured between the described main drive chain gear of pair of right and left, and is linked on the described motor drive shaft of described motor; Driving epicyclic gear box, it is configured between the described main drive chain gear of pair of right and left, and the swivel eye as inner gear rotates along with the output shaft of described deceleration epicyclic gear box; And tubular drive wheel, it is fixed on the periphery of described swivel eye, and the periphery in left and right sides portion is fixed with the described main drive chain gear of pair of right and left.

Preferably, the described motor drive shaft of described motor, the described output shaft of described deceleration epicyclic gear box, the described swivel eye of described driving epicyclic gear box and described tubular drive wheel are configured on the same axis.

Preferably, described deceleration epicyclic gear box combines described in multistage, deceleration epicyclic gear box is in line.

Be provided with the support unit supporting described motor,

Described support unit is fixed on the frame parts that is positioned on a sidepiece of described truss,

Frame parts on the other side of described truss is provided with bearing,

Rotate from the S. A. that described driving epicyclic gear box is outstanding and be bearing in freely described bearing.

Preferably, the inner circumferential being positioned at the described tubular drive wheel of the side contrary with described swivel eye is rotatably bearing on described support unit by bearing.

Preferably, in described machine room, be provided with the handrail sprocket gear of pair of right and left,

The periphery of described tubular drive wheel is provided with handrail pulley,

Described handrail sprocket gear is linked by rotating band and described handrail pulley.

Preferably, described deceleration epicyclic gear box is planet-shaped, there is the first sun gear, the first inner gear, the multiple first planet gear configured between described first sun gear and described first inner gear and multiple described first planet gear is linked the first planet connecting gear be integrated

The rotation of fixing described first inner gear,

First S. A. of described first sun gear and the described motor drive shaft of described motor link,

Multiple described first planet gear is with the rotation rotation of described first sun gear, and the inner circumferential simultaneously along described first inner gear revolves round the sun,

By the revolution of multiple described first planet gear, described first planet connecting gear rotates, and the first output shaft being positioned at described first planet connecting gear center rotates.

Preferably, passenger conveyors also comprises and described deceleration in line the second deceleration epicyclic gear box be connected of epicyclic gear box,

Described second deceleration epicyclic gear box is planet-shaped, it has secondary sun wheel, secondary annulus, multiple second planetary wheel configured between described secondary sun wheel and described secondary annulus and multiple described second planetary wheel is linked the second planet connecting gear be integrated

The rotation of fixing described secondary annulus,

Second S. A. of described secondary sun wheel and described first output shaft of described deceleration epicyclic gear box link,

The rotation together with the rotation of described secondary sun wheel of multiple described second planetary wheel, the inner circumferential simultaneously along described secondary annulus revolves round the sun,

By multiple described second planetary revolution, described second planet connecting gear rotates, and the second output shaft being positioned at described second planet connecting gear center rotates.

Preferably, described driving epicyclic gear box is sun type, there is the 3rd sun gear, the 3rd inner gear, the multiple third planet gear configured between described 3rd sun gear and described 3rd inner gear and multiple described third planet gear is linked the third planet connecting gear be integrated

Described 3rd inner gear is configured to rotatable, and is configured to as a whole with described swivel eye,

The rotation of fixing described 3rd sun gear,

Described second output shaft being positioned at the input shaft at described third planet connecting gear center and described first output shaft of described deceleration epicyclic gear box or described second deceleration epicyclic gear box links,

The rotation of multiple described third planet gear, and while rotating together with described third planet connecting gear, by revolving round the sun around described 3rd sun gear, described 3rd inner gear is rotated.

Preferably, described driving epicyclic gear box is star-like, there is the 4th sun gear, the 4th inner gear, the multiple fourth planet gear configured between described 4th sun gear and described 4th inner gear and multiple described fourth planet gear is linked the fourth planet connecting gear be integrated

The rotation of fixing described fourth planet connecting gear,

Described 4th inner gear is configured to rotatable, and is configured to as a whole with described swivel eye,

Described second output shaft of the 4th S. A. of described 4th sun gear and described first output shaft of described deceleration epicyclic gear box or described second deceleration epicyclic gear box links,

Rotation while multiple described fourth planet gear rotates together with described 4th sun gear, and when not revolving round the sun around described 4th sun gear, described 4th inner gear is rotated.

According to the passenger conveyors of embodiment, the passenger conveyors that can reduce machine room can be provided.

Accompanying drawing explanation

Fig. 1 is the lateral plan of the escalator representing an embodiment of the present utility model.

Fig. 2 is the cross sectional drawing of machine room.

Fig. 3 is the longitudinal section of machine room.

Fig. 4 is the longitudinal section of the first drop-gear box.

Fig. 5 is the longitudinal section of the second drop-gear box.

Fig. 6 is the longitudinal section of driving box.

Fig. 7 is the structural representation of the first deceleration epicyclic gear box of planet-shaped.

Fig. 8 is the structural representation of the second deceleration epicyclic gear box of planet-shaped.

Fig. 9 is the structural representation of driving epicyclic gear box.

Figure 10 is the structural representation of 1 driving epicyclic gear box of variation.

Detailed description of the invention

Below, the escalator 10 of an embodiment of the present utility model is described based on Fig. 1 to Fig. 3.

(1) escalator 10

The structure of escalator 10 is described based on Fig. 1 and Fig. 2.

Truss 12, as the frame parts of escalator 10, across the upper and lower at building 1, and utilizes bearing angle 2,3 to support.

The machine room 14 of upper layer side of the upper end being positioned at truss 12 is provided with the actuating device 18 comprising the motor 20 that step 30 is advanced.Will be explained below this actuating device 18.This actuating device 18 makes the main drive chain gear 24,24 of pair of right and left and the handrail sprocket gear 22,22 of pair of right and left rotate.In addition, the one end in the machine room 14 of upper layer side is provided with the control setup 50 for controlling motor 20.

The servo-actuated sprocket gear 26,26 of pair of right and left is provided with at the machine room 16 of lower layer side of the lower end being positioned at truss 12.The ring-type step chains 28,28 of taking pair of right and left is hung between the main drive chain gear 24,24 of the pair of right and left of upper layer side and the servo-actuated sprocket gear 26,26 of the pair of right and left of lower layer side.The ring-type step chains 28,28 of pair of right and left is provided with multiple step 30 with equal intervals.When motor 20 starts to rotate, the front-wheel 301 of step 30 is advanced on the guide rail 23 be fixed on truss 12, and trailing wheel 302 is advanced on the guide rail 25 be fixed on truss 12.

In the left and right sides of truss 12, be vertically installed with the railing 36,36 of pair of right and left.The top of this railing 36 is provided with handrail rail 39, and the handrail 38 of ring-type moves along this handrail rail 39.Skirtboard 40 is protected in the front positive basifacial of the upper layer side of railing 36 being provided with upper layer side, and skirtboard 42 is protected in the front positive basifacial of lower layer side being provided with lower layer side, and the inlet portion 46,48 of handrail 38 discrepancy place protects skirtboard 40,42 respectively and gives prominence to from front.

Be provided with at the side lower of railing 36 and protect skirtboard 44, step 30 is advanced in protecting between skirtboard 44,44 of pair of right and left.The medial surface protecting skirtboard 44 of levels is respectively arranged with operation board 52,56 and loud speaker 54,58.

Handrail 38 enters front from the inlet portion 46 of upper layer side and protects in skirtboard 40, hangs ride in handrail sprocket gear 22 via deflector roll 64, then, by deflector roll 66, protecting movement in skirtboard 44, being exposed to front protecting skirtboard 42 from the inlet portion 48 of lower layer side.Further, handrail 38 rotated together with main drive chain gear 24 by handrail sprocket gear 22 and with step 30 synchronizing moving.

The lifting board 32 of upper layer side, as the gangway protecting skirtboard 44,44 of the pair of right and left of upper layer side, is horizontally placed on the ceiling of machine room 14.The lifting board 34 of lower layer side, as the gangway protecting skirtboard 44,44 of the pair of right and left of lower layer side, is horizontally placed on the ceiling of machine room 16.The front end of the lifting board 32 of upper layer side is provided with the flange 60 of comb teeth-shaped, and step 30 invades in this flange 60.In addition, the front end of the lifting board 34 of lower layer side is also provided with the flange 62 of comb teeth-shaped.

(2) actuating device 18

Then, based on Fig. 2 to Fig. 5, actuating device 18 is described.

The main drive chain gear 24,24 of foregoing pair of right and left is configured with in the machine room 14 of truss 12.Level or be configured with motor 20 in left-right direction between the main drive chain gear 24,24 of pair of right and left, the output shaft of motor 20 is provided with the first deceleration epicyclic gear box (hereinafter referred to as " the first drop-gear box ") 68, this first drop-gear box 68 is provided with the second deceleration epicyclic gear box (hereinafter referred to as " the second drop-gear box ") 70, this second drop-gear box 70 is provided with driving epicyclic gear box (hereinafter referred to as " driving box ") 72.

(3) first drop-gear boxs 68

First, based on Fig. 4, Fig. 7, the first drop-gear box 68 is described.First drop-gear box 68 is planet-shaped, and it has the first sun gear 681, first inner gear 682, a pair first planet gear 683,684 and first planet connecting gear 685.

On sun gear 681, S. A. 686 is fixed on center, and sun gear 681 rotates together with S. A. 686.Sun gear 681 and S. A. 686 are coaxially fixed by the output shaft of motor 20 and plunging joint 74, and sun gear 681 rotates together with motor 20.

On ring-type inner gear 682, inner circumferential is provided with gear, and to make its non-rotary mode fix.

On planetary wheel 683, S. A. 687 is fixed on center, is configured between sun gear 681 and inner gear 682.

On planetary wheel 684, S. A. 688 is fixed on center, is configured between sun gear 681 and inner gear 682.

The planet connecting gear 685 of tabular is provided with S. A. 687 and S. A. 688, planetary wheel 683 and planetary wheel 684 is linked as a whole, output shaft 689 is given prominence to from the center of planet connecting gear 685.

As shown in Figure 7, about this first drop-gear box 68, when sun gear 681 rotates under the rotary actuation of motor 20, a pair planetary wheel 683 and planetary wheel 684 rotation, simultaneously in the periphery of sun gear 681, i.e. the inner circumferential of inner gear 682 revolves round the sun.Now, by planet connecting gear 685, because a pair planetary wheel 683 links with planetary wheel 684, the speed that thus planet connecting gear 685 is also identical with the rotative speed that planetary wheel revolves round the sun rotates, and output shaft 689 rotates.

The reduction ratio Z1 of the first drop-gear box 68 is, when the number of teeth of sun gear 681 is set as Z1A, when the number of teeth of inner gear 681 is set as Z1C, and Z1=(Z1C/Z1A)+1.

(4) second drop-gear boxs 70

Secondly, based on Fig. 5, Fig. 8, the second drop-gear box 70 is described.Second drop-gear box 70 is also planet-shaped, and it has secondary sun wheel 701, secondary annulus 702, a pair second planetary wheel 703,704 and second planet connecting gears 705.

On sun gear 701, S. A. 706 is fixed on center, and sun gear 701 rotates together with S. A. 706.The output shaft 689 of S. A. 706 and the first drop-gear box 68 coaxially links.

On ring-type inner gear 702, inner circumferential is provided with gear, and to make its non-rotary mode fix.

On planetary wheel 703, S. A. 707 is fixed on center, is configured between sun gear 701 and inner gear 702.

On planetary wheel 704, S. A. 708 is fixed on center, is configured between sun gear 701 and inner gear 702.

On the planet connecting gear 705 of tabular, be provided with S. A. 707 and S. A. 708, planetary wheel 703 and planetary wheel 704 linked as a whole, output shaft 709 is given prominence to from the center of planet connecting gear 705.

As shown in Figure 8, about this second drop-gear box 70, when sun gear 701 rotates under the rotation of the first drop-gear box 68, a pair planetary wheel 703 and planetary wheel 704 rotation, simultaneously in the periphery of sun gear 701, i.e. the inner circumferential of inner gear 702 revolves round the sun.Now, by planet connecting gear 705, because a pair planetary wheel 703 links with planetary wheel 704, the speed that thus planet connecting gear 705 is also identical with the rotative speed that planetary wheel revolves round the sun rotates, and output shaft 709 rotates.

The reduction ratio Z2 of the second drop-gear box 70 is, when the number of teeth of sun gear 701 is set as Z2A, when the number of teeth of inner gear 701 is set as Z2C, and Z2=(Z2C/Z2A)+1.

(5) driving box 72

Next, based on Fig. 6 and Fig. 9, driving box 72 is described.Driving box 72 is sun types, and it has the 3rd sun gear 721, the 3rd inner gear 722, a pair third planet gear 723,724 and third planet connecting gear 725.

On sun gear 721, S. A. 726 is fixed on center, makes it fix in non-rotary mode.

On ring-type inner gear 722, inner circumferential is provided with gear, this gear is rotatable.

On planetary wheel 723, S. A. 727 is fixed on center, is configured between sun gear 721 and inner gear 722.

On planetary wheel 724, S. A. 728 is fixed on center, is configured between sun gear 721 and inner gear 722.

On the planet connecting gear 725 of tabular, S. A. 727 and S. A. 728 are installed, planetary wheel 723 and planetary wheel 724 are linked as a whole.The center of planet connecting gear 725 is provided with input shaft 729, and the output shaft 709 of itself and the second drop-gear box 70 coaxially links.

About this driving box 72, when the rotation by the second drop-gear box 70, when input shaft 729 rotates, planet connecting gear 725 rotates, and planetary wheel 723 and planetary wheel 724 revolve round the sun along the periphery of the sun gear 721 rotated that has been fixed, rotation simultaneously.Revolve round the sun while a pair planetary wheel 723 and planetary wheel 724 rotation, accompany therewith, inner gear 722 rotates.The reduction ratio Z3 of driving box 72 is that the number of teeth of inner gear 722 is set as Z3C, when the number of teeth of sun gear 721 is set as Z3A, and Z3=(Z3C/Z3A)+1.

In sum, the comprehensive reducing speed ratio Y obtained by this first drop-gear box 68, second drop-gear box 70 and driving box 72 is, Z=ZI*Z2*Z3.Reduction ratio can be set as, such as Z=100.

The output shaft 709 of output shaft 689, second drop-gear box 70 and the input shaft 729 of driving box 72 of the first above-mentioned drop-gear box 68 are arranged on the S. A. of main drive chain gear 24 of pair of right and left.

The inner gear 722 of driving box 72 has the effect of swivel eye concurrently, the periphery of inner gear (swivel eye) 722 is embedded with tubular drive wheel 76 (with reference to Fig. 2).The axial length setting of this tubular drive wheel 76 is slightly shorter than the length of the left and right directions of machine room 14, and the left and right sides portion of tubular drive wheel 76 is respectively arranged with main drive chain gear 24,24.In addition, the inner side of the main drive chain gear 24,24 of this pair of right and left, the periphery of namely tubular drive wheel 76 is provided with the handrail pulley 78 of ring-type.The handrail pulley 78 of pair of right and left and the handrail sprocket gear 22 of pair of right and left directly set up not shown rotating band.

The right side (reinfusion side) of motor 20 is fixed on the frame parts 121,122 of the longitudinal direction of truss 12 by support unit 80.

The S. A. 730 given prominence to from the left side of tubular drive wheel 76 is rotatably provided in via bearing 82 on the frame parts 122 longitudinal direction in the left side of truss 12.The right side of tubular drive wheel 76 is rotatably provided on support unit 80 via bearing 84.

(6) operating state of actuating device 18

In order to make escalator 10 start, when motor 20 is rotated, motor drive shaft rotates, and slows down via the first drop-gear box 68, second drop-gear box 70, and after slowing down further by driving box 72, tubular drive wheel 76 and inner gear (swivel eye) 722 rotate simultaneously.

When tubular drive wheel 76 rotates, the main drive chain gear 24,24 of pair of right and left rotates, thus step 30 is moved.In addition, the handrail pulley 78,78 of pair of right and left also rotates together with tubular drive wheel 76, via rotating band, handrail sprocket gear 22,22 is rotated.Thus, handrail 38 and step 30 synchronous rotary.

(7) effect

According to the present embodiment, due to configuration packet the actuating device 18 of motor 20 can be contained between the main drive chain gear 24,24 of pair of right and left, thus can reduce machine room 14 size in the longitudinal direction, the distance L between building 1 and truss 12 can be increased, thus can meet the legal requirements.

In addition, by making motor 20 rotate, the main drive chain gear 24,24 of pair of right and left and guard chain gear 22 can be made to rotate.

In addition, owing to this actuating device 18 being provided with first drop-gear box 68, second drop-gear box 70 and the driving box 72 that can carry out slowing down, the motor drive shaft 74 of motor 20 thus can being made to rotate and to slow down.

(8) variation

In the above-described embodiment, tubular drive wheel 76 is cylindrical shapes, but also can be substituted by a basket shape.That is, the metal bar extended in the lateral direction being separated certain intervals is arranged in cylindric, and tubular drive wheel 76 is formed as a basket shape.Like this, by forming the tubular drive wheel 76 of basket shape, motor 20 etc. can be checked from the gap between metal bar.

In addition, in the above-described embodiment, driving box 72 is sun type, but it is star-like also can be substituted by as shown in Figure 10.In star-like driving box 72, the S. A. 746 of the 4th sun gear 741 and the output shaft 709 of the second drop-gear box 70 link, and rotate together.On the other hand, by fourth planet connecting gear 745, the revolution of fourth planet gear 743,744 is fixed, only carry out rotation together with the 4th sun gear 741.4th inner gear 742 rotates with the rotation of fourth planet gear 743,744.

In addition, in the above-described embodiment, planetary wheel is two, but also can be three or four.

In addition, in the above-described embodiment, although the first drop-gear box 68 and the in line link of the second drop-gear box 70, if only need the first drop-gear box 68 just can obtain target deceleration ratio, the second drop-gear box 70 can so also be dispensed.In addition, otherwise, when only in line link first drop-gear box 68 and the second drop-gear box 70 cannot obtain target deceleration than time, so also can the planet-shaped deceleration epicyclic gear box of in line link more than three sections.

In addition, in the above-described embodiment, the step 30 for escalator 10 has been made comformability and has been illustrated, the step (step) being also adapted to mobile pavement in generation.

As mentioned above, although the description of an embodiment of the present utility model, but this embodiment is only for casehistory content of the present utility model, and is not intended to limit scope of the present utility model.Also the embodiment of these novelties can be implemented by other various ways.In the scope not departing from aim of the present utility model, various omission, replacement, change can be carried out to it.These embodiments and distortion thereof are contained in scope of the present utility model and aim, are equally also contained in utility model described in claims and equivalent scope thereof.

Nomenclature

10: escalator; 12: truss; 14: machine room; 18: actuating device; 20: motor; 22: handrail sprocket gear; 24: main drive chain gear; 30: step; 68: the first deceleration epicyclic gear boxes; 70: the second deceleration epicyclic gear boxes; 72: driving box; 74: motor drive shaft; 76: tubular drive wheel; 78: handrail pulley; 80: support unit; 82: bearing; 84 bearings.

Claims (10)

1. a passenger conveyors, is characterized in that, comprising:

The truss on building is supported in by bearing angle;

Machine room, it is arranged on one end of described truss;

Multiple step, it configures along its length in described truss, and connects to ring-type;

The main drive chain gear of pair of right and left, it is configured in described machine room, for driving described step;

Motor, it is configured between the described main drive chain gear of pair of right and left;

Deceleration epicyclic gear box, it is configured between the described main drive chain gear of pair of right and left, and is linked on the motor drive shaft of described motor;

Driving epicyclic gear box, it is configured between the described main drive chain gear of pair of right and left, and the swivel eye as inner gear rotates along with the output shaft of described deceleration epicyclic gear box; And

Tubular drive wheel, it is fixed on the periphery of described swivel eye, and the periphery in left and right sides portion is fixed with the described main drive chain gear of pair of right and left.

2. passenger conveyors according to claim 1, is characterized in that,

Described swivel eye and the described tubular drive wheel of the described motor drive shaft of described motor, the described output shaft of described deceleration epicyclic gear box, described driving epicyclic gear box are configured on the same axis.

3. passenger conveyors according to claim 1, is characterized in that,

Described deceleration epicyclic gear box combines described in multistage, deceleration epicyclic gear box is in line.

4. passenger conveyors according to claim 1, is characterized in that,

Be provided with the support unit supporting described motor,

Described support unit is fixed on the frame parts that is positioned on a sidepiece of described truss,

Be positioned on the frame parts on the other side of described truss and be provided with bearing,

Rotate from the S. A. that described driving epicyclic gear box is outstanding and be bearing in freely described bearing.

5. passenger conveyors according to claim 4, is characterized in that,

The inner circumferential being positioned at the described tubular drive wheel of the side contrary with described swivel eye is rotatably bearing on described support unit by bearing.

6. passenger conveyors according to claim 1, is characterized in that,

The handrail sprocket gear of pair of right and left is provided with in described machine room,

The periphery of described tubular drive wheel is provided with handrail pulley,

Described handrail sprocket gear is linked by rotating band and described handrail pulley.

7. passenger conveyors according to claim 1, is characterized in that,

Described deceleration epicyclic gear box is planet-shaped, there is the first sun gear, the first inner gear, the multiple first planet gear configured between described first sun gear and described first inner gear and multiple described first planet gear is linked the first planet connecting gear be integrated

The rotation of fixing described first inner gear,

First S. A. of described first sun gear and the described motor drive shaft of described motor link,

Multiple described first planet gear with the rotation rotation of described first sun gear, and revolves round the sun along the inner circumferential of described first inner gear,

By the revolution of multiple described first planet gear, described first planet connecting gear rotates, and the first output shaft being positioned at described first planet connecting gear center rotates.

8. passenger conveyors according to claim 7, is characterized in that,

Also comprise the second deceleration epicyclic gear box with the in line link of described deceleration epicyclic gear box,

Described second deceleration epicyclic gear box is planet-shaped, it has secondary sun wheel, secondary annulus, multiple second planetary wheel configured between described secondary sun wheel and described secondary annulus and multiple described second planetary wheel is linked the second planet connecting gear be integrated

The rotation of fixing described secondary annulus,

Second S. A. of described secondary sun wheel and described first output shaft of described deceleration epicyclic gear box link,

Multiple described second planetary wheel is with the rotation rotation of described secondary sun wheel, and the inner circumferential simultaneously along described secondary annulus revolves round the sun,

By multiple described second planetary revolution, described second planet connecting gear rotates, and the second output shaft being positioned at described second planet connecting gear center rotates.

9. passenger conveyors according to claim 8, is characterized in that,

Described driving epicyclic gear box is sun type, there is the 3rd sun gear, the 3rd inner gear, the multiple third planet gear configured between described 3rd sun gear and described 3rd inner gear and multiple described third planet gear is linked the third planet connecting gear be integrated

Described 3rd inner gear is configured to rotatable, and is configured to as a whole with described swivel eye,

The rotation of fixing described 3rd sun wheel,

Described second output shaft being positioned at the input shaft at described third planet connecting gear center and described first output shaft of described deceleration epicyclic gear box or described second deceleration epicyclic gear box links,

The rotation of multiple described third planet gear, and while rotating together with described third planet connecting gear, by revolving round the sun around described 3rd sun gear, described 3rd inner gear is rotated.

10. passenger conveyors according to claim 8, is characterized in that,

Described driving epicyclic gear box is star-like, there is the 4th sun gear, the 4th inner gear, the multiple fourth planet gear configured between described 4th sun gear and described 4th inner gear and multiple described fourth planet gear is linked the fourth planet connecting gear be integrated

The rotation of fixing described fourth planet connecting gear,

Described 4th inner gear is configured to rotatable, and is configured to as a whole with described swivel eye,

Described second output shaft of the 4th S. A. of described 4th sun gear and described first output shaft of described deceleration epicyclic gear box or described second deceleration epicyclic gear box links,

Rotation while multiple described fourth planet gear rotates together with described 4th sun gear connecting gear, and when not revolving round the sun around described 4th sun gear, described 4th inner gear is rotated.